INDICATED FOR FEMORAL AND PROXIMAL POPLITEAL ARTERIES
Being a relatively mobile artery, the SFA requires a stent that conforms to the natural vessel movement and provides sufficient support in complex, long lesions that are often difficult to cross. Pulsar-35 is a stent designed for SFA with high multi-directional flexibility on a tri-axial delivery system.
- One-handed stent release for accurate stent deployment
- Tri-axial shaft for a stable delivery system during stent deployment
- S-articulating connecting bars and peak-to-valley design for multi-directional flexibility
- Segmented stent design with thin struts for lower restenosis rates
- Isolates retractable shaft from friction caused by introducer valve, ensuring precision and accuracy during implantation.
Stent Designed for SFA
- Peak-to-valley design and S-articulating connecting bars provide multi-directional flexibility and avoid fish-scaling in mobile vessel architecture.
- A segmented design with thin struts provides low Chronic Outward Force (COF)1 sufficient to maintain vessel scaffolding even in calcified lesions (4EVER study)2. High COF has been shown to result in higher rates of neointimal hyperplasia.3
- Stent lengths up to 170 mm cover long lesions with a single stent.
One-Handed Stent Release
- Ergonomically designed for a comfortable and stable handling, enhancing ability to immobilize complete system during stent deployment.
- Safety tab: Avoids accidential stent deployment
- Trigger: For controlled stent delivery
Low Chronic Outward Force
- Low Chronic Outward Force (COF)1 sufficient to maintain vessel scaffolding even in calcified lesions (4EVER study2). As shown in the graphic, COF of Pulsar stents increases less than many competitor stents when oversized, thus potentially reducing inflammatory response and restenosis3.
|Recommended guide wire
|| proBIO (amorphous silicon carbide)
||6 gold markers each end
||ø 5.0 - 7.0 mm; L: 30 - 170 mm
||6F, hydrophobic coating
||90 and 135 cm
1 BIOTRONIK data on file (IIB report (P) 71/2011-1).
2 4EVER study. Bosiers. M. 24m results presented CIRSE 2013; Deloose K. 24m results presented LINC 2014.
3 -Ballyk PD. Intramural stress increases exponentially with stent diameter: a stress threshold for neointimal hyperplasia. J Vasc Interv Radiol. 2006 Jul;17(7):1139-45.
-Freeman JW, Snowhill PB, Nosher JL. A link between stent radial forces and vascular wall remodeling: the discovery of an optimal stent radial force for minimal vessel restenosis. Connect Tissue Res. 2010 Aug;51(4):314-26.
-Zhao HQ, Nikanorov A, Virmani R, Jones R, Pacheco E, Schwartz LB. Late stent expansion and neointimal proliferation of oversized Nitinol stents in peripheral arteries. Cardiovasc Intervent Radiol. 2009 Jul;32(4):720-6".